Machine tool



Juns, 1943. E. E. KELLEY 2,321,393

MACHINE TOOL Filed Sept. 22, 1959 4 SheetS -Sheet 1- June 8, 1943.

E. E. KELLEY MACHINE TOOL Filed Sept. 22, 1939 '4 Sheets-Shee t 2 June 8, 1943.

E. E. KELLEY MACHINE TOOL Filed :Sept. 22, 1939 4 Shets-Sh'eet s W .y y N N@ .R p m. r. g fl June 8, 1943.

E. E. KELLEY MACHINE TOOL Filed Sept. 22, 1939 4 Sheets-Sheet 4 Patented June 8, 1943 UNITED S PATENT? coerce,

MACHINE TOOL- Elrner ELKelley, HartfordiCrinm: Application September 22, 1939; Serial matted-05- 21Claims.- (01. 29. .43) 7 My invention relates to machine tools.

It has among its objects to provide an improved machine tool of the parallel spindle turret type described and claimed in my Patent No. 1,892,239, patented December 27; 1932, and, more particularly, to provide improved turret indexing mechanism therefor. A further object of my invention is to providesuch an improved indexing mechanism wherein the turret is positively moved in an. improved manner and the turret is also.

more accurately positioned ineach position there'- of. Anotherobject of my invention is' to provide improved operating mechanism for indexing the turret wherein, through an improved top pivotation of the turret'jactuating.rocker mem= her and improved cooperating. actuating and controlling means for swinging said member about its, pivot, the above results are obtained while eliminating allneed for providing an ad ditionalweight on the rocker .member or rely:

ing upon gravity, and while also insuring posi-.

tive movement of the rocker member in.either direction when disengagedfrom the turretgac tuating mechanism. Still further objects of my invention are to provide improved associated turret actuating cam and roller mechanismoperating 'betweenthe rocking member and'eain disc and improved cooperating braking and position-t ing mechanisms for the turret cooperating with the latter and the cam disc respectively, whereby the movement of the turretis effected and controlled i an improved manner; Still another object of my invention is to providedmpro'ved' actuating and positioning means for thestock,

stop arm in such manner as to make it possible to position the latter certainly. and accurately in stopping positions intermediate the indexing positions of the turret wherein the latter is locked by the'locking mechanism. These and other objects and advantages of my improved construction will, however, hereinafter more fully appear. In the accompanying drawings, I have shown for purposes of illustration, one embodiment which my invention may-assume in practice.

In these drawings: 7 Figure l is a side elevation of a machine tool equipped with-my improvements;

Fig. 2 is a plan view of thesame, certain parts being omitted to facilitate illustration;

Fig. 3 is an enlarged horizontal sectional view on line 3-3 of Figure 1;

Fig.- 4 is a side elevationpartiallyinsection" of the mechanism shown-in Fig.- 3, certain parts being broken away tofacilitate illustiation?- Fig-5 is a transverse section-on-line'5 5 of' Fig. 7 when the turret. has ."Irioved ro rw'arja and.

the rocker member is returning to its down'position;

Fig. 9 is a similar viw' showing t warts with the turret ready; for- {its initialf90' movement,

.theyrocker member bing' then-swung to the right;

Figixlo -is a'likeview 'of -the parts after the initial 90; movement, and while-thestock'is being fedand prior to -the;--further;- 90 indexing movementwhioh would-reversethe tools before return of the parts to-the positionshownin Figure 7; Fig: ,11 is ,,a roduced planview;- showing -the turret; tools; and-iwork :when the indexing mechanism ,i-s inthe:posi-tion shown in Figure 7; 7

Fig. 12 is a likexvi'ew-showing these-parts when the indexing-mechanismvis in'the position shown in Figure 9, the" itoolst'then being' advanced into the work;

Fig-.zliis alike view of the'zparts when the indexing mechanism is in the-position shown in Figure 10, th stop-arm then being" in 1' engage' ment' with the stock- -in the right I hand spindle andthe- 1 tools being indeXeii -"thrOugh 90" as shown; V

Fig. 14 is a view' similanto Figure '1-1, but=with the drills andstockfv'sto'p arm reverse'd' as they are following-frnovementof-the indexing mechanism from the position-shown in Figure 10;

Fig; l5showsthe" drills i-advanced into the worlrfromthe' position shown in Figure 14';

Fig. 16' j shows 'the" stoclrf'stopi "in engagement with the Wor-kiinthe lefthandspin'dlej the tools then being inoperative; as" shown "in Figure 13, :but ivvith the. tools, reversed :rrbm their position thereinp.

Fig.-17 ;is a detail .view,- partially in section, of

the :brakemechanism Figs, l8 is: a; section'on' line 1.8;! 8; oi FigureT 17,.

portions of *the indexing-disc being g'shown in the position Fig. 19 is a detail sectional View on line |9|3 of Fig. 4, showing the lock means.

In this illustrative construction, I have shown a machine of the general type described in my patent mentioned, and including a head stock I and a gear box 2, a plurality of parallel spindles 3 being carried in the head stock and suitably rotated by gearing therein, while the stock is fed therethrough, by feeding mechanism generally indicated at 4 and formed and cut oil in the space between the head stock I and gear box 2. Herein, the head stock is also provided with a transverse bottom tool slide 5 and a plurality of vertical tool slides 6, both of which are operated in the desired sequence by gearing in the head stock. Power is also transmitted to the spindles 3 from a central shaft 1 and to the transverse and vertical tool slides 5 and 6, as well as to the feeding mechanism 4 by a sleeve 8 enclosing the shaft 1 and suitably driven through gearing within the.

gear box 2. Herein, also, a main cam 9 is provided coaxially on the sleeve 8 and rotatable therewith, and this cam is operatively connected through a cam follower or roller with a longitudinal tool slide l which, in turn, carries a two part bracket I la in which is journaled the turret l2 carrying any usual tools l3, l4; a stock stop arm |5 herein also being fixed to an outer sleeve l6 which extends axially through the turret and is indexed therewith. Herein, improved actuating and controlling mechanism, generally indicated at H, is provided between the front end of the main cam 9 and the rear end of the turret |2 for operating and controlling the indexing of the turret l2 and the stock stop arm l5, all as hereinafter more specifically described.

This mechanism includes an improved turret actuating cam, generally indicated at l8, and keyed to and rotatable with the sleeve 8. Herein, this cam I8 is disposed at the front end-of the hub of the main cam 9, as shown in Figure 3, and within an end bracket l9. As shown in Fig. 6, this cam is of the multiple lobed type including a box cam portion 2|] adapted to cooperate with an oppositely extending lobe portion 2 I. More particularly, the box cam portion 28 is provided with a guiding trough 22 and a communicating trough 23 of increased cross section and having an outer wall 24. Also, the lobe 2| is herein provided with a curved cam wall 25 disposed opposite and cooperating with the surfaces 22 and 24 to form a box cam, this wall 25 also extending around the cam 2| for approximately 180 and having its ends connected by a clearance cam portion 26. Herein, also, the cam portion 2| is provided on its hub with adjacent spaced cam teeth 21 and 28. Both of thesecam teeth extend beyond the adjacent edge of the box cam 28 in such manner that they are thus adapted to cooperate with difierent and shorter rollers than would be required to engage the surfaces 22 and 25 of the box cam. V I

Cooperating with this improved cam is an improved rocker member, generally indicated at 29, which, as shown in Fig. 5,1s pivoted at 30 centrally of its upper end in the bracket l9 and symmetrically disposed with respect to its pivot. As illustrated, this rocker member 29 is also provided with a cut-out portion 3| symmetrically disposed with respect to the body of the cam and to the pivot 30 and adapted to receive and permit movement of the rocker member 23 transversely relative to the adjacent end of the sleeve I6 at apoint just in front of the hub of the cam l8. rocker member also-carries onthe face thereof adjacent the cam l8, a plurality-of rollers 32, 33 and 34, which are disposed above the cut-out This.

portion 3| and around the pivot 38. Of these rollers, the roller 32 is a long roll adapted to be received between the box cam faces 22 and 25, the same cooperating with the surface 22 thereof and moving through the enlarged trough portion 23 while in contact with the cam surface on the cam 2|; attention here also being directed to the fact that this long roll 32 is shown as located slightly to the right of the center line of the rocker arm. The rolls 33 and 34, on the contrary, are short rolls adapted only to cooperate with the cam teeth 2! and 28 of the cam 2| and not of sufficient length to cooperate with the cam surfaces 22, 25 and 26. Of these rolls 33 and 34, it will also be noted that the roll 33 is located on the center line of the rocker member 29, and that the same is spaced beteween the rolls 32 and 34 and slightly nearer the roll 34. Here it will also be observed that the roll 33 is slightly smaller in diameter than the roll 34 which herein is illustrated as of substantially the same diameter as the long roll 32. On the opposite face of the rocker member 29, peripherally located rollers 35 and 35 are provided which are equally spaced on opposite'sides of the center line of the member 23 and are adapted to cooperate with an improved cam disc 31.

This cam disc 31 herein is provided on its face adjacent the rollers 35 and 36, with a plurality of series of radial pads 38 and 39. As shown, these series are disposed on opposite sides of the axis of the disc. Also, in each series, a pair of pads 38 is disposed in parallelism adjacent each other to provide a passage 40 therebetween to receive the roller 35, attention being directed to the fact that the outer end 4| of one of these pads 38 is suitably rounded off to permit the roller 35 to enter the passage 43. The other pads 39 are disposed approximately at right angles to and between the pairs of pads 38 and are adapted to be engaged by the roll 35, as hereinafter described.

Attention is here directed to the fact that as shown in Fig. 3, the disc 31 is provided with an elongated hub 42 extending axially through the turret l2 and suitably keyed, as at 43, to the turret, while also being suitably keyed, as at 44, to the sleeve l6. Thus, the turret l2 being rotatably mounted in the bracket Ila, the turret is free to be indexed as the cam |8 rotates with the sleeve 8, rotation being imparted intermittently to the turret through the cooperation of the various cam surfaces and rollers hereinafter described. Further, theturret is also maintained free to move its tools l3 and M longitudinally, i. e. toward and from the work in the spindles 3, under the action of the main cam 9 which actuates the roller ||l carried on the longitudinal tool slide H which carries the turret in its bracket ||a; the cam disc 31 then being moved with the turret longitudinally relative to the rocker member 29, as also hereinafter described. It will further be evident that as the turret is thus moved longitudinally toward and from the work, it will slide reversely on the sleeve 16 which carries the stock stop arm I5, while the latter being keyed to the turret |2 is rotated therewith; conflict between the stock stop arm l5 and the tools being eliminated by the relative angular location of the stock stop arm with relation to the tools, the stock stop arm herein being disposed at an angle of from either tool.

Operatively associated'with the turret I2 is also improved turret positioning means. Herein, this mechanism, which is, as usual, carried'on the rea es;

bracketv Ila, includes a positioning plunger 45' (Fi 4) having an pfiositljil tapered 5116-46}- adapted-to be received in L'correspondinglyshaped notches spaced at 180.from each other arouiid the peripheryof th'fturre't I2. Herein-the plunger is carried in a suitablesleevefiflslotted. as at 49 to receive an operatingfarm 50, of a bell crank i pivoted on theslide ll at 52 andhaving a' depending tail cam 53;; This tail cam 53, herein has a 'slopingbotto'mr surfacecooperatmg with the .upper end of an upwardly projectingarm 54011 a; bell crank 55 pivoted-at 56 on'a transverse member: 5T fixed to the; main frame of thefmachine. As shown; an adjusting screw 55!; i's'also providedbetween the horizontal arm n of, this bell'crank j'an'dthe frame,}in' such imann er v as :to' vary the position; or setting, of the upper; end of the arm 54.:and, ".conseq'uently, make possible-a quite minute, or micrometer," adjustment controlling .the time when the plunger 45is with drawn tounlock the turret. Attention here is also directed to the fact that the plunger 45 has I a notch 58 therein receiving one end-of a plate I spring 59., the opposite-end of which is fix'edto the longitudinal slide 1 I." Thus, it will be observed that whenever the turret'lZ- i so rotated by the'indexing mechanism above described,- as, in either of two reverse positions, to bring its tools l3 and I4 into-alignment with the work in 1 the spindle 3, one of the will be brought into registrywith the tapered end #6 01 the plunger 45, whereupon the spring 59 will cause the plunger to seat in therecessj ifi and through the 'cooperatingtapers on the seat and plunger will cause thetools to be brought into the exact positions desired. It willalso-be observed that the arm 54 is carried in a fixed; position on the frame, the plunger beingautm matically retracted when the turret has moved back to .its retracted position and before any 1 indexing'movemeht thereof can occur. Cooperating withthis plunger mechanism and acting further to insure the proper positioning of the turret and stock stop arm I5, is also improved braking mechanism. Herein, this braking mechanism (Figs. 17 and 18) includes-a brake shoe fio'ldisposed beneath the cam disc 31 and carrying a suitable brakelining 6|- adapted to engage the periphery of the cam disc. Herein, this brake mechanism is located on the top of the slide ll and under the cam disc 31. Further, improved means are provided for actuating the brake shoe 60, these means herein including an notchesfi'l in the turret integral plunger 62 extending down into a suitable recess 63 in a block carriedon the slide H. Asshown, a'longitud inal slot 65 is provided in this plunger 62, and adapted to receive-an arm 66 of a bell crank 61 pivotedinu the block 64 at '68 .and also having a free arm"69 provided witha cam shaped nose 10 and extendinginward beyondthe periphery of the cam disc 31.-'Cooperating with the bell crank Gland engaging the cam 'lfl'thereon, is also improved means carried on the cam disc 31 cm the'side thereof adjacent the. turret. These means herein comprise a plu rality of eccentric adjustable cams H carried on I clampingbolts 12 and having serratedsurfaces 13. engageable with the adjacent face of the disc 31in 's'uchm'anner as, when the bolts 12 are tightened, thereby .to insure definite. positioning I of the adjusted cams relativeto the cam nose: '10, 6

These: cams II are herein fourinnumber. and v equally spaced around the .discin such man er as to be adapted to engage; thercarn' nose |0.,of

latter and h l n er? qc rrl d h bra e-in each of T four "max ng, positions of t the turret. Thus; as the turret'rotates "into 'a-nyof its predetei'lhind positionsthe brake will slow up the saififiri such manner that the plunger '45lrna'y have its taperedend' 46 "enter with/certainty into thepr'operi notch 41, while when the stock stop arm l5 'o'ccupis'its intermediate positions,

the brake will also "act with' sufiici'ent force to cause this arm l S' tobe maintained in't'h'e correct intermediate positions" fer stepping the stock.

Obviously, through the adjustable cam members H, theforce exertedbyfthje brake mayalso be increased asneeded; toinsure' the stopping of the turret in thelproper intermediate positions forlthe stock stop arm 15. r l

In the operation of a machine of this type, the spindles '3 will. be rotatedli'n' a'well known mann81 while. thjto'ols onthe' bottom transverse tool slide 5 are operating. on the work and while the vertical cut-off; mechanism 6 is operating; the feeding inechanisr'nl also thereafter feeding for ward the stock. rods 'inth elspindles in a'wellf known" manner. In this type of machine; it will also be understood' th'at' as vin myprior patent mentioned; the'stock will'be fed alternately through the different spindles by the feeding mechanism 4, thef work pieces being also alternately formed and-cutf'oif by the tools on the transverse tool slide'5 and vertical cut off mechanism, 6; Further; as in" my prior construction mentioned, the turret]?an d'stock'stop arm I5 rotatable therewith, are indexed "in such timed relationto the transverse tool slide ,5,Ivertical cut-off mechanism 6 and'feedin'g mechanism 4 as to cause" the'tools I3 and M'to be 'fed longitudinally intorthe work in different spindles and then "'wi'thdrawnand indexed to reverse these c tools to f enable them when again longitudinally advanced withfthitoo'l slide l I, to act upon the work indifferent spindles;'the stock stop arm I 5 alsobeing indexed in' such manner. as alternately to provide a stopfor'tne stock' alternately fed,

followin'gfcutting' off, in different spindles 3 by i and also previouslyformed bythe tools onthe' transverse tool slide, as shown in Figure 3. willYbe noted,v however, that to facilitate illustration, the forming tools and the forming of the Whrk therebyhave been omitted from Figures 11 "to 16, the particular shape of the work and the operation of the forming or other tools on the cross slide'i not entering directly into the present invention which is concerned with the indexing mechanism. Also; in the position of the parts shown in Figures 1 to 5'in'cl1'isive, '7, 11, '17 and'18,

the turret is readytobe moved forward to present these drills: 13am M to: the"'work; whileYthe rocking member 29am cam disc 31 are inthe position shown in Figures? and 11. Before more specifically considering the subsequent indexing operations; note'fu'rther that the rocking me m ber ja this positi'orifofv the tools l3 and His I W les?l ifi i lifia filiit lqil q r E1299??? in Figure 7, so that the drive shafts I and sleeves 8 and I6 are at the extreme right hand end of the cut-out portion 3! in this member 29. Further, one of the eccentric cams H has engaged the cam nose 19 of the bell crank 61 in such manner as to move the brake shoe 60 toward the periphery of the cam disc 31 and press the brake lining 3| against thi periphery and thereby brake and hold the disc in such a position that the plunger 45 may enter the notch 41 in the turret l2. Consequently, when the cam 9 acts upon the follower ID on the longitudinal tool slide H to move the turret l2 and tools I3 and 14 toward the work, the spring 59 will be free to project the plunger 45 into the notch 41 as soon as the tail cam 53 of the bell crank 5| clears the upwardly projecting arm 54 on the bell crank '55. Further, due to the oppositely tapered end 46 of the plunger 45 and the correspondingly tapered surfaces in the adjacent notch 41, the turret and the tools 13 and i4 rotatable therewith, will both be free to be accurately positioned angularly in such manner as to bring the tools into the desired exact alignment with the work in the spindles. However, this, What may be called an r gular adjusting or correction, movement of the tools cannot occur until the cam disc 31 has moved sufficiently longitudinally away from the rocking member 29 to cause the roller 33 on the rocking member to be freed from engagement with the opposite walls of the slot 49 between the parallel cam pads 38 (Figures 4, 5, and 7). vDuring the entire longitudinal movement of the turret l2, longitudinal tool slide II, and cam disc 31, it will be understood that 'the latter is thus entirely disconnected from the rocking member 29 as shown in Fig. 12. Thus, th member 29 when disconnected is free to be moved from the extreme left hand position, shown in Figure 7, to the extreme right hand position, shown in Figs. 9 and 12, by the associated cams and 2| and roller 32. This movement is effected by the long roll 32 which, as the cam l8 rotates counterclockwise, enters between the cam surfaces 22 and 25, forming the box cam, and passes through the trough portion 23. During this movement, it will be evident that the surface 22 acts to prevent the rocking member 29 from falling by gravity, fro-m the position shown in Figure '7 to the position shown in Figure 8. It will further be noted that in the intermediate position shown'in Figure 8, the long roll 32 is emerging from the trough 23 and just about to engage the lifting portion of the surface 25 on the cam lobe 2|.

As a result, the rocking member 29 is lifted from the position shown in Figure 8 to its eXtreme right hand position shown in Figure 9. In this latter position of the rocking member 29, it will also be observed that its roll is disposed at the right of one of the pads 39 on the cam disc 31, which at this time has just been'moved reversely to its extreme retracted position with the longi-' tudinal slide ll, following the completion of the drilling operation of the tools 13 and I4. At the same time that the cam disc 31 and the rocking member 29 are thus longitudinally reconnected for indexing, it will be observed that the rearward movement of the longitudinal tool slide 1 I has caused the tail cam 53 of the bell crank 5| to engage the upwardly projecting arm 54 of the bell crank 55 and thereby operate that bell crank to pull down the plunger 45 and withdraw the same from the notch 41 in the turret, in such manner as to release the latter for indexing movement. It will further be understood that although, throughout the forward and reverse movements of the longitudinal tool slide ll,the brake lining 6| is maintained pressed against the cam disc 31 by the continued engagement of an eccentric H with the cam nose 10 of thebell crank 61, the brake will be automatically released as soon as the cam disc 3'! begins to rotate again with the rocker member 29, this being due to the shape of the cam nose 10 which permits the eccentric cam H to pass readily off from the cam nose 19. Following this release of the brake and while the roller 35 is in contact with the pad 39, as shown in Figure 9, the cam tooth 21 is in engagement with the large short r011 34 on the rocking member 29. Accordingly, as the cam I8 continues to rotate counterclockwise, it will carry this roller 34 to the left from the position shown in Figure 9 to the position shown in Figure 10, in such manner as thereby to return the rocking member 29 from its extreme right hand position shown in Figure 9 to the position thereof shown in Figure 10. The disc 31 being rotatable by the rocking member 29 during this movement, due to the engagement of the roller 35 with the pad 39, the cam disc and the turret 12 will, accordingly, be movedthrough to effect an indexing movement of the tools I3, l4 while the parts are 'moving from the positions shown in Figures 9 and 12 to those shown in Figures 10 and 13; the stock stop arm 15 also being moved into the position shown in Figs. 10 and 13 before the work is again fed by the feeding mechanism 4 and the roller 36 on the rocker member 29 during this movement also entering into the other slot 40 between the other set of pads 38. While the stock stop arm i5 is in the position shown in Fig. 13, sufficient dwell is also provided by the spacing of the toothed cam 28 from the small short roll 33, to enable the feeding mechanism 4 to release, feed and again grip the work before the stock stop I5 is moved out of the stopping position shown in Fig. 13. Attention here is also directed to the fact that, due to the small diameter of this roll 33, the latter has no engagement with that portion of the hub of the cam l8 between the toothed cams'2l and 28 and, accordingly, will not tend in any way to move the stock stop arm 15, while the latter arm is also held against movement by the action of the brake mechanism which is'maintained applied by the engagement of one of the eccentric cams-ll with the cam nose 10; However, at the such manner as thereby to swing the rocking member 29 from the position shown in Figure 10 to the position shown in Figure 7, the turret 12 with its tools 13 and I4 and the stock stop arm 15 then being indexed through a further90 movement to bring the. part into the position shown in Figure 14, wherein-both the drills and the stock-stop are reversed with respect to their positions shown in Figures '7 and 11. Obviously, while the indexing mechanism is thus going through a half cycle of its operation, the upper work piece shown in Figure 11 will not only be completed, but cut oil. by the vertical cut-off mechanism 6, the same being cut off following the operation of the drill l4 thereon and between the positions of the parts shown in Figures 12and 13, while anew length ofstock will be fed, as shown in Figures 13 and 14, ready for forming-drilling and cutting off" during the remaining half cycle of the indexing mechanism. Obviously, the movement of the parts in the second half of the cycle of the turret and indexing mechanism wills it 7 2 553 be-the same as that above described, andthe turret will be braked and locked in its indexed position asbefore, the; only difierence being that at the beginningof this second half cyclathe tools l3 and [4 are reversedwith respect ,to their position in Figure 11, and'at the completionof the half cycle, are returned to the position shown in Figure 11 while the stock stop armul5 is in depending position at the beginning or this half cycle and assumes theglower stock stopping position shown in Figure-l6, during; the cycle, and is returned to itsupstanding stock stoppin position shown in Figures 7 and llat the end of this second half cycle, Further, it will be understood that in the second half cycle, the lower work piece is the Work DiBCQWhlChisfOIIIlfid; drilled and cut oil, rather than the uppernworkpiece which, as previously described, was similarly ,op-

erated upon'duringthe first half cycler In'connection with the second half cycle, it will also be understood that Figures 15 and lfi-correspond to Figures 12 and 13, but thatportions of,,the indexing mechanism have been omitted to facilitate illustration. p p I As a result of my improved--construction, it

. will be observed that'therocking member 29 is not free at any time to be gravity operated, but, instead, is oppositely actuated and controlled by its associated cam mechanism, in suchmanncr'asto insure complete certainty and accuracy of .operation At the same-time, all necessity-forproviding additionalweights-for effecting a swi,n ing movement of this rocking member is eliminated, the latter, instead, being so pivoted-at itsrtop and positively moved bythe cam mechanism as to make any such additional -weight---unnecessary. Attention is also directed to theimproved accuracy of positioning, both'of the turret-and the stock stop arm, made possible by the-,i-rnproyed braking mechanism, which eliminates anyobjectionableefiects of inertiain the-movement o f the turret into the two-index-posi-tiens of thejools l3 and I4, and further acts to hold-the turret in the two intermediate positions thereof,

the stock stop isfdisposed in oppositestock stop ping positions opposite the ends of difierent spindles. It will also beobserved that this-=bralging mechanism facilitates the operation of; the;1 ock ing mechanism in bringing the moving turret-to restas the notchin the turretcomes opposite-the plunger of the lockingmechanism; so that the plunger may consequently act more certainly-end accurately to bring the tools, into perfectalignment with the work. These and other advantages of my improved construction will, however, be clearly apparent to those skilled in the a While I have-in-this application specif cally described one embodiment which lr y invention may'assume in practice, it will be understood that this form of the same is chosen for purpqsespfiL lustration and that my invention may be modifiedand embodied in variousother forms without departing from its spirit or the scope of the ap pended claims. it

What I claim as new and desire to secure by Letters Patent is: V a a 1. In a machine tool of the type having stock rotating and feeding mechanisms including a rotating spindle, tool slide mechanism carrying tools operating on Work in said spindle-,driving shafts for said mechanisms, longitudinally reciprocable carrier mechanism including 5 a rotatableturret actuated from one of said drive shafts and carrying a plurality of tools for operating on during the operation 1said workyand means for indexing said turret topresent different tools to, said work} turret braking mechanism for braking said turret as it approaches the end of an indexing operation including a: brake carried ion: and longitudinally reciprocable with said carrier mechanism and brake controlling means. spaced around of and rotatable with said turret..

2; In a machinetool of thet'ype having stock rotating and feeding mechanisms including a rotating spindle,:too1. slide mechanism carrying tools operating on wo'rk in .said spindle; "driving shafts" for ;said;mechanisms, longitudinally re- .ciprocable1 carrier mechanism including a turret actuated fromone of said drive shafts and carrying, a plurality of tools .for .operatingon said the axis work, and means for vindexingsa'id turret to present different tools to said'work, turret braking mechanism for'braking said. turretas' it api proaches the end of.an indexing operation ineluding {a brake. member carried on and longitudinallytreciprocable with said carriermechanism for braking'an' element 'of said indexing means,

and a plurality of spaced cams on said element for applying and releasing' saidbrake member.

' 3: In a machine tool o'fl'the type having stock rotating: and: feeding mechanisms including a rotating spindle, m1 slide mechanisms carrying :tools operating on work in said: spindle, driving shafts. for saidme'chanism's, longitudinallyreciprocable carrier mechanism including -a turret actuated from one of said drive shafts and carrying; a. plurality 'of' tools for ope r'atin'g on said Work, andimeans for indexing said turret to present different tools 'to said -work', turret braking. mechanism i'carried on fsai'd carrie'r mechanism, and means spaced around the axis of said turret 1 for applying said braking me'chanism as "the aturret approaehes theendof an indexing operationand maintaining {the turret braked of said longitudinal carrier mechanism] 4 4. Ina machine t'ool; turret indexing mechanism inc'luding a longitudinallyreciprocable and rotatably'jmounted turret, a hired to said turret,- a rocking member pivoted on a, stationary'part "ofthe machinaf; an: indexing cam po'si-tivly ecking said member; m both errestions, and" cooperati g longitudinally separable elementsbetween sai disc andi qck ng'r embe 'for'positively indeiii ng saidfcamfldiscl and turret assaid roclgingmember swings iin one direction w it l 1 n a. ma ne i09 turret ndex n me aiincluding a longitudinally reciprocable land mte e lylmquntedt rr ai amd sc fi d t said r tie: ro k n Vm mbenpivoted a, sta on Pa -50? thamachipe, an indexing cam; positively ock n s id member in: both. diIZQ. l1iQ a d c operating longitudinally: separable. elements be,- tween said disc and rocking member for positively indexing said cam disc and turret as said rocking member swings about its pivot, said cam including a box portion, an oppositely disposed lobe, and a plurality of spaced cam teeth, and

said rocking member carrying different rollers cooperating with said box portion and lobe and with said cam teeth. 7

7. In a machine tool, turret indexing mechanism including a longitudinally reciprocable and rotatably mounted turret, a cam disc fixed to said turret, a rocking member pivoted on a stationary part of the machine, an indexing cam positively rocking said member in both directions, and cooperating longitudinally separable elements between said disc and rocking member for positively indexing said cam disc and turret as said rocking member swings about its pivot, said cam including a box portion, an oppositely disposed lobe, and a, plurality of spaced cam teeth, and said rocking member carrying different rollers cooperating with said box portion and lobe and with saidcam teeth, said cam teeth being offset in different planes from said box cam and lobe and said different rollers being of different length to cooperate therewith.

8. In a machine tool, turret indexing mechanism including a longitudinally reciprocable and rotatably mounted turret, a cam disc fixed to said turret, a rocking member pivoted on a stationary part of the machine, an indexing cam positively rocking said member in both directions, and cooperating longitudinally separable elements between said disc and rocking member for positively indexing said cam disc and turret as said rocking member swings about its pivot, including on said disc a plurality of angularly related pads, and rollers on said rocking member selectively cooperating with said pads.

9. In a machine tool, turret indexing mechanism including a longitudinally reciprocable and rotatably mounted turret, a cam disc fixed to said turret, a rocking member pivoted on a stationary part of the machine, an indexing cam positively rocking said member in both directions, and cooperating longitudinally separable elements between said disc and rocking member for positively indexing said cam disc and turret as said rocking member swings about its pivot, in cluding on said disc a plurality of angularly related pads, and rollers on said rocking member selectively cooperating with said pads, said pads including parallel spaced pads and an angularly related single pad.

10. In a machine tool, turret indexing mechanism including a longitudinally reciprocable and rotatably mounted turret, a cam disc fixed to said turret, a, rocking member pivoted on a stationary part of the machine, an indexing cam positively rocking said member in both directions, and cooperating longitudinally separable elements between said disc and rocking member for positively indexing said cam disc and turret as said rocking member swings about its pivot, including on said disc a plurality of angularly related pads, and rollers on said rocking member selectively cooperating with said pads, said rocking member being pivoted at its top and having said rollers spaced from one another along its periphery remote from said pivot.

ret actuated from one of said drive shafts and carrying a plurality of tools for operating on said work and a stock stop member, means for indexing said turret to present different tools to said work in different turret positions and to move said stock stop into and out of operative position intermediate said positions, and means for looking said turret against rotation only in the different operative positions of said tools, braking mechanism for holding said turret in said intermediate stock stop positions.

12. In a machine tool of the type having stock rotating and feeding mechanisms including a rotating spindle, tool slide mechanism carrying tools operating on work in said spindle, driving shafts for said mechanisms, longitudinally reciprocable carrier mechanism including a turret'actuated from one of said drive shafts and carrying a plurality of tools for operating on said work and a stock stop member, means for indexing saidturret to present different tools to said work in different turret positions and to move said stock stop into and out of operative position intermediate said positions, and means for locking said turret against rotation only in the differentoperative positions of said tools, braking mechanism for holding said turret in said intertating spindle, tool carrier mechanism carrying tools operating on work in said spindle, driving shafts for said mechanisms, longitudinally reciprocable carrier mechanism including a turret actuated from one of said drive shafts and carrying a plurality of tools for operating on said work and a stock stop member, means for indexing said turret to present different tools to said work in difleren'tturret positionsand to move said stock stop into and outof operative position intermediate said positions, and means for locking said turret against rotation only in the different operative positionsof said tools, braking mechanism for holding saidturret in said intermediate stock stop positions and braking theturret movement as it approaches the locked positions thereof, including a brake mechanism and a plurality of brake controlling members corresponding to said tool and stock stop positions and rotatable'with said turret.

14. In a machine tool of the type having stock rotating and feeding mechanisms including a rotating spindle, tool carrier mechanism carrying tools operating on work in said spindle, driving shafts for said mechanisms, longitudinally reciprocable carrier mechanism including a turret actuated from one of said drive shafts and carrying aplurality of tools for operating on said work and a stock stop member, means for indexing said turret to present different tools to said work in different turret positions and to move said stock stop into and out of operative position intermediate said positions, and means for locking said turret against rotation only in the different operative positions of said tools, braking mechanism for holding said turret in said intermediate stock stop positions and braking the turret movement as it approaches the locked positions thereof, including a brake mechanism and a plurality of brake controlling members corresponding to said tool and stock stop positions and rotatable with said turret, the controlling members for the stock stop being alternately disposed between other members acting to apply the brake as the turret approaches locking position.

15. In a machine tool, indexing mechanism including a rotating turret, brake mechanism operative on said turret and having a brake applying lever, and cam means on said turret spaced about the axis of the latter and actuating said lever to apply and release said brake as said turret rotates.

16. In a machine tool, indexing mechanism including a rotating turret, brake mechanism op erative on said turret and having a brake applying lever, and cam means on said turret and spaced about the axis of the latter and actuating said lever to apply and release said brake, said cam means comprising a plurality of spaced adjustable eccentric cams each adjustable about one of a plurality of axes spaced around the turret axis.

1'7. In a machine tool, indexing mechanism including a rotating turret, brake mechanism operative on a part of said mechanism rotating with said turret and having a brake applying lever, and cam means on a part rotatable with said turret and about the axis of the latter and cactuating said lever to apply and release said brake, said brake lever having a cam nose engageable by said rotating cam to apply the brake and initially fully applying said brake, and also having an adjacent cam face engaging said rotatable cam member to maintain said brake applied and permit release upon resumption of rotation of the turret.

18. In a machine tool, indexing mechanism including a longitudinally reciprocable tool carrier and a rotatable tool carrying turret thereon, locking mechanism including notches rotatable with said turret and a cooperating plunger carried by said tool carrier and biased into locking position, and cooperating plunger controlling means carried on said tool carrier and a stationary part of the machine for withdrawing said plunger and holding it withdrawn during indexing of said turret to the next locking position thereof, including a plunger operating bell crank movable with said plunger and a cooperating bell crank carried by said stationary part and having one of its arms adjustable relative to said stationary part and having its other arm comprising an upstanding abutment engageable by one arm of said first mentioned bell crank at the end of movement of said carrier in one direction and remaining in engagement therewith to hold said plunger in withdrawn position during movement of the turret to its next position and until said tool carrier has moved a predetermined distance in the opposite direction.

19. In a machine tool of the type having indexing mechanism including a longitudinally reciprocable tool carrier and a rotatable tool carrying turret thereon, locking mechanism including notches rotatable with said turret and a cooperating plunger carried by said tool carrier and biased into locking position, cooperating plunger controlling means carried on said tool carrier and a stationary part of the machine and operated by movement of said carrier for withdrawing said plunger and holding it withdrawn during indexing of said turret to the next locking position thereof and for releasing said plunger only when said carrier has moved a predetermined distance following indexing, and braking mechanism braking said turret as it approaches locking position, said plunger being released and locking said turret upon a predetermined forward movement of the longitudinal tool carrier while said brake is maintained in braking position,

20. In a machine tool of the type having a head stock carrying a plurality of parallel spindles and associated stock feeding mechanism, tool slide mechanism on said head stock carrying tools operating on work in said spindles to form and cut-01f alternately the work in different spindles, driving shafting operating said spindles, feeding mechanism and tool slide mechanism including a power shaft, a longitudinal tool slide, and a main cam actuated by said power shaft and operating said tool slide, a turret rotatable on said tool slide and carrying a plurality of tools for cooperating with the work in said spindles, said longitudinal tool slide being reciprocably mounted beneath said main cam, and said turret being disposed substantially in the longitudinal planes of said cam and on the opposite side of said cam from the source of power for said power shaft, indexing mechanism between said main cam and turret and including an operating member rotatable with one of said shafts for indexing the turret tools into reverse operative positions with respect to the work in said spindles, a stock stop mounted coaxially with said shafting and rotatable with said turret and movable into positions to stop the stock in different spindles between the reverse operative positions of the tools carried by said turret, mechanism for locking said turret in the reverse position thereof, and braking mechanism for braking said turret as it approaches each locking position thereof and in the operative positions of said stock stop. 21. In a machine tool of the type having a head stock carrying a plurality of parallel spindles and associated stock feeding mechanism, tool slide mechanism on said head stock carrying tools operating on work in said spindles to form and cut-off alternately the work in different spindles, driving shafting operating said spindles, feeding mechanism and tool slide mechanism including a power shaft, a longitudinal tool slide, and a main cam actuated by said power shaft and operating said tool slide, a turret rotatable on said tool slide and carrying a plurality of tools for cooperating with the work in said spindles, said longitudinal tool slide being reciprocably mounted beneath said main cam, and said turret being disposed substantially in the longitudinal planes of said cam and on the opposite side of said cam from the source of power for said power shaft, indexing mechanism between said main cam and turret and including an operating member rotatable with one of said shafts for indexing the turret tools into reverse operative positions with respect to the Work in said spindles, a stock stop mounted coaxially with said shafting and rotatable with said turret and movable into positions to stop the stock in different spindles between the reverse operative positions of the tools carried by said turret, mechanism for locking said turret in the reverse position thereof, and braking mechanism for braking said turret as it approaches each locking position thereof and in the operative positions of said stock stop, said braking mechanism also being maintained operative during the longitudinal movements of said longitudinal tool slide and automatically released upon rotation of said turret,

ELMER E. KELLEY. 

